Recently, the State Electricity Regulatory Commission issued the “Circular on the Supervision and Control of the Cost of Power Engineering Projects during the Eleventh Five-Year Planâ€.
Judging from the situation of cost control, the total cost of power engineering units put into operation during the “Eleventh Five-Year Plan†period has been declining. The overall trend of hydropower projects has been on a rising trend. Wind power projects have started to show a downward trend since they continued to rise. AC transmission line engineering An upward trend.
During the “Eleventh Five-Year Plan†period, the final cost of the new thermal power project final account unit is 3855 yuan/kW, which is 54 yuan/kW lower than that during the “10th Five-Year Plan†period. During the "Eleventh Five-Year Plan" period, only the reduction in unit cost will reduce the investment by about 19.6 billion yuan.
Yan Hong, director of the State Electricity Regulatory Commission for Power Transmission, said that the market's full competition has stimulated the enthusiasm of thermal power companies to strengthen project cost control. The increase in the production ratio of large-capacity and high-parameter units has led to a continuous decline in the unit cost of thermal power projects.
According to the statistics from the China Electricity Regulatory Commission, during the "11th Five-Year Plan" period, the proportion of ultra-supercritical and supercritical machine assembly machines put into operation in thermal power projects increased from 37% in 2006 to 63% in 2010. The proportion of machine assembly machines with 600MW and above was accounted for. From 49% in 2006 to 64% in 2010.
For hydropower projects, due to the construction of compensation standards for land requisition and resettlement, the cost of construction will be greatly increased. According to the report of the China Electricity Regulatory Commission, the final cost of commissioning of hydropower projects during the “Eleventh Five-Year Plan†period was 6,870 yuan/kW, an increase of 19.08% over the period of the “10th Five-Year Plan†period.
Among the 6870 yuan/kW cost of hydropower projects, the top three are construction projects (2591 yuan/kW, accounting for 37.71%), construction land acquisition and resettlement compensation (1337 yuan/kW, accounting for 19.46%), and electromechanical Equipment and installation engineering (933 yuan/kW, accounting for 13.58%).
Wind power is due to technological progress, the improvement of the level of domestic fan manufacturing, market competition factors so that the engineering unit cost significantly reduced. From 2007 to 2009, the cost of wind power projects continued to rise. In 2009, it reached the highest peak of 9252 yuan/kW, which fell in 2010 to 8895 yuan/kW.
Compared to the power generation enterprises, the inherent power of grid companies as a natural monopoly is insufficient. According to the report of the China Electricity Regulatory Commission, "Compared with power generation companies, there is a certain gap between the internal power generation cost control of power grid companies and the formation mechanism of market-based power grid engineering costs needs further improvement."
According to the report of the China Electricity Regulatory Commission, the unit construction cost of AC transmission line projects put into operation during the “Eleventh Five-Year Plan†period generally showed an upward trend, which was 17.93% higher than during the “Tenth Five-Year Plan†period. In 2010, the construction cost of 110kV-500kV final account units rose by 37.12%, 26.37%, 25.79% and 31.08%, respectively, compared with 2006.
The Electricity Regulatory Commission will attribute the increase in the cost of transmission lines to the external environment and policy changes in the project construction.
First, with the economic development, the scale of the city has expanded dramatically, and various development zones have been set up in various places. The difficulty of selecting line corridors and routes is increasing, and the meandering coefficient of line routes is increasing, resulting in increase in tensile strength, corner towers, and material consumption. With the increase, the investment in the engineering body has increased, resulting in a rise in the unit cost of transmission line engineering. Second, the substantial increase in the compensation fees for demolition and relocation also led to an increase in the cost of transmission line engineering construction.
A person in charge of the local dispatch office of the State Electricity Regulatory Commission stated: "Because of lack of market competition, power grid engineering cost control lacks motivation. To solve this problem, we need to increase the supervision of cost control and continue to promote the reform of the power system."
The power system reform started in 2002, completed the separation and reform of plant and network, and the progress of power generation project construction and marketization continued to increase. At the end of 2011, the nation’s power generation capacity reached 1.056 billion kilowatts, and the new installed capacity reached 700 million kilowatts in nine years, which is equivalent to twice the total installed capacity of 350 million kilowatts in 1949-2002.
One of the five major power groups used "competitive competition" to describe the environment for the power companies. He said: “In the past ten years since the electric power reform, fundamental changes have taken place in the operating environment of power generation companies. Under the prevailing policy of on-grid tariffs, electric power companies have experienced fierce competition and reduced cost to improve profitability.â€
In the report, the SERC estimates that among the different investors, China Resources Power Holdings Co., Ltd. has the lowest unit cost, and State Grid Energy Development Co., Ltd. has the highest price, which is 3426 yuan/kW and 4,523 yuan/kW, respectively.
“State Grid Energy is a direct subsidiary of a wholly-owned subsidiary of the State Grid. Since the plant network is not separated and there is no market competition, project construction costs cannot be reduced. China Resources has the highest degree of marketization, and its engineering cost has advantages.†The above-mentioned five major power sources analyzed.
Antenk DVI Series Digital Video Interface connectors are the standard digital interface for flat panels, video graphics cards, monitors and HDTV units. This series includes DVI-D (Digital), DVI-A (Analog) and DVI-I (Integrated Digital/Audio). Their unique crossing ground blades provide high speed performance at low cost. They are available in Straight or Right Angle PCB mount receptacles and mating male cable connectors. They support a data transfer rate of 4.95Gbps with a dielectric withstanding voltage of 500VAC. Each version features our specially designed contacts which improve signal performance and a zinc alloy shield that reduces electromagnetic interference (EMI).
Digital Visual Interface Cable Connectors
DVI ConnectorWith the advent of technologies such as DVD players, high-definition televisions, and even digital cable, the need for more advanced cables and connectors has increased. Digital Visual Interface (DVI) is one response to the growing need for interconnected systems, enabling digital systems to be connected to an array of displays. Yet DVI cables and connectors can also be complicated, and may lead to confusion between High Definition Multimedia Interface (HDMI) and DVI. Although the two systems have much in common, they service different niches of digital technology.
Digital Visual Interface
Older systems aren`t necessarily outdated systems. Although DVI preceded HDMI, it`s still widely used in both business and domestic settings. DVI connectors are designed to handle digital data transmission, incorporating three transmission channels in every connector link. The maximum bandwidth for data transfer is 165 megahertz, which is enough to relay up to 165 million pixels per second. Data is encoded for effective transfer, but a single link can handle around 4.95 gigabits per second of information. Double links can handle twice that amount.
Because a DVI cable carries information over a 165 megahertz bandwidth, complete digital resolution can be obtained. Using double link connectors increases the speed of transmission, but requires another cable. However, not many devices depend solely on a double link DVI, so this technolgy can be used on an as-desired basis.
Types of DVI Connectors
There are three general categories of DVI cable connectors: DVI-Digital (DVI-D), DVI-Integrated (DVI-I), and DVI-Analog (DVI-A). However, most connectors fall into one of the first two groups.
A standard DVI Connector is 37 mm wide and has 24 pins, 12 of which are used for a single link connection. When analog is involved, four additional pins are needed to support the additional lines of an analog signal. It is not possible to cross from a digital source to an analog display or vice versa. In those instances, an integrated connector is probably the best option. There are five common types of DVI connectors.
DVI-I Single Link
This kind of connector has three rows, each with six pins. There are two contacts. Because the connector is integrated, it can be used with both analog and digital applications.
DVI-I Dual Link
A DVI-I dual link connector can also be used with both digital and analog applications, but is configured with more pins to accommodate a dual connection. There are three rows with eight pins each, as well as two contacts.
DVI-D Single Link
Specifically designed for digital applications, a DVI-D single link connector has three rows of six pins, and looks much like a DVI-I single link connector. However, a DVI-D connector has no contacts.
DVI-D Dual Link
Also made specifically for digital applications, a DVI-D dual link features more pins (three rows of eight) for dual connections. Like a DVI-D single link, a DVI-D dual link connector has no contacts.
DVI-A
This particular type of connector can only be used for analog applications, and has three rows of pins. One row has five pins, one has four pins, and the last row has three pins. Like single link connectors, a DVI-A link connector has two contacts.
Male DVI Connector
ShenZhen Antenk Electronics Co,Ltd , https://www.antenk.com